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GRADE LEVEL: 9-11

TIME ALLOTMENT: Three 45-minute periods

OVERVIEW: This inquiry-based lesson plan will challenge students to design and conduct scientifically valid experiments to evaluate hypotheses regarding an animal’s expected behavior in response to changes in its environment.

Students will first view and analyze video segments from the NATURE film “Earth Navigators” as they begin to think about animal behavior as a response to stimulus in the environment. The video clips feature many different animal species reacting to changes in the environment by migrating from one part of the earth to another. Students will predict the reasons for these migrations and will determine the stimuli that actually trigger the animals to migrate.

Following the video exploration, students will conduct reading and research to learn about isopods (commonly known as pill bugs or roly polies). The students will use the information they gather to formulate research questions having to do with the isopods’ expected response to environmental stimulus. The students will design experiments that can be conducted in the classroom to test their hypotheses. They will conduct the student-designed experiments, collecting data and reporting their findings and conclusions. They will also make suggestions for future improvements in the experimental protocol.

SUBJECT MATTER: Living Environment/Biology

LEARNING OBJECTIVES:

Students will be able to:

• Draw connections between the migratory behavior of different animals and seasonal changes on Earth;
• Describe migration as an instance of behavioral response to stimulus;
• Using anatomical and environmental information, create a research question about an isopod’s behavior in response to environmental stimulus;
• Create a hypothesis that addresses the research question;
• Design and conduct an experiment to evaluate the hypothesis;
• Collect data from the experiment, describe results, and evaluate conclusions.

STANDARDS AND CURRICULUM ALIGNMENT:

CONTENT STANDARD A: As a result of activities in grades 9-12, all students should develop:

• Abilities necessary to do scientific inquiry
• Understandings about scientific inquiry

CONTENT STANDARD C: Life Science. As a result of activities in grades 9-12, all students should develop understandings of:

• Behavior of Organisms.

New York State Regents Core Curriculum Alignments
Living Environment Core Curriculum
STANDARD 1: Students will use mathematical analysis, scientific inquiry, and engineering designs, as appropriate, to pose questions, seek answers, and develop solutions

Key Idea 2: Beyond the use of reasoning and consensus, scientific inquiry involves the testing of proposed explanations involving the use of conventional techniques and procedures and usually requiring considerable ingenuity.

Performance Indicator 2.1: Devise ways of making observations to test proposed explanations.

Performance Indicator 2.3: Develop and present proposals including formal hypotheses to test explanations; i.e., predict what should be observed under specific conditions if the explanation is true.

Performance Indicator 2.4: Carry out a research plan for testing explanations, including selecting and developing techniques, acquiring and building apparatus, and recording observations as necessary.

Key Idea 3: The observations made while testing proposed explanations, when analyzed using conventional and invented methods, provide new insights into natural phenomena.

Performance Indicator 3.1: Use various methods of representing and organizing observations (e.g., diagrams, tables, charts, graphs, equations, matrices) and insightfully interpret the organized data.

STANDARD 4: Students will understand and apply scientific principles and theories pertaining to the physical setting and living environment and recognize the historical development of ideas in science.

Key Idea 5: Organisms maintain a dynamic equilibrium that sustains life.

Performance Indicator 5.3: Relate processes at the system level to the cellular level in order to explain dynamic equilibrium in multicelled organisms.

5.3a Dynamic equilibrium results from detection of and response to stimuli. Organisms detect and respond to change in a variety of ways both at the cellular level and at the organismal level.

Key Idea 6: Plants and animals depend on each other and their physical environment.

Performance Indicator 6.1: Explain factors that limit growth of individuals and populations.

6.1f Living organisms have the capacity to produce populations of unlimited size, but environments and resources are finite. This has profound effects on the interactions between organisms.

MEDIA COMPONENTS

Video

NATURE: Earth Navigators, selected clips

Clip 1: “Planetary Moves”

Introduction to four species’ migratory patterns.

Clip 2: “Monarch Migration”

The start of the monarch butterfly’s northward trek.

Clip 3: “Hungry Beasts”

Wildebeest and locusts on the move.

Clip 4: “Arctic Summer”

Many birds summer in the arctic.

Access the streaming and downloadable video segments for this lesson at the Video Segments Page.

Web Sites

FOSSWEB: Isopods
Includes general information on isopods and useful tips on how to find and keep pill bugs for the classroom

Isopod, Pillbug, Sow bug information
Includes general information on isopods

NCES Graphing Tutorial
This tutorial from the National Center for Education Statistics explains the various kinds of graphs and demonstrates how to build them.

MATERIALS

For the classroom:

• Computer and projection system for showing video clips
• Several computers for student use
  Chalkboard or whiteboard
• Isopods (pill bugs) in a terrarium or other classroom habitat (enough specimens for at least 15-20 per student group)
• Isopod Research Organizer Answer Key (PDF) (RTF)

Materials to be used in pill bug experiments (several of each):

• Paper towels or filter paper
• Eye droppers
• Portable Lamps
• Heat Packs
• Cold Packs
• Card stock or construction paper
• Substrate materials, e.g. sand, gravel, dirt, shredded paper, bark, etc.
• Thermometers

Per group of 3-4 students:

• Stopwatch
• Materials to make “test chambers”: Petri dishes or small disposable bowls or plates – enough for approx. 5 or 6 per group
• Roll of masking tape
• Scissors or art knife
• Paper cup
• Data Collection Chart
• Graph paper

Per student:

• Isopod Research Organizer (PDF) (RTF)
• Isopod Experiment Organizer (PDF) (RTF)
• Isopod Experiment Assessment Rubric (PDF) (RTF)
• Paper and pen

PREP FOR TEACHERS

Prior to teaching this lesson, you will need to:

Preview all of the video clips and Web sites used in the lesson.

Download the video clips used in the lesson to your classroom computer, or prepare to watch them using your classroom’s Internet connection.

Bookmark the Web sites used in the lesson on each computer in your classroom. Using a social bookmarking tool such as del.icio.us or diigo (or an online bookmarking utility such as portaportal) will allow you to organize all the links in a central location.

Procure live isopods (pill bugs) for the students to observe and use. Isopods are very easy to care for in the classroom, and can either be collected in the wild or ordered from a biological supply company. For more information on collecting, rearing, and keeping isopods in the classroom, see the two Isopod references mentioned in the “web sites” section.

Familiarize yourself with accepted guidelines for the safe and responsible handling of live animals in a classroom setting. The NSTA’s Responsible Use of Live Animals and Dissection in the Science Classroom and the Institute for Laboratory Animal Research’s Principles and Guidelines for the Use of Animals in Precollege Education are good general resources. Also check to see if your state or district has special animal handling guidelines or requirements.

Make copies of the Isopod Research Organizer and the Isopod Experiment Organizer for each student.

Next: Proceed to Activities

(Click here for a printer-friendly version of this lesson.)

GRADE LEVEL: 9-12

TIME ALLOTMENT: Three 45-minute class periods

OVERVIEW: The traditional view of animal behavior is that it is driven by inherited, innate instincts, but recent scientific research is revealing a larger role for complex cognitive processes among many species. The lesson will explore some of the more commonly accepted indicators of animal intelligence as demonstrated by the most brainy of all birds-the raven.

Students will first explore a series of science Web sites to compile a list of certain animal behaviors and abilities that indicate higher intelligence. They will then find and analyze examples of these behaviors and abilities as demonstrated by ravens in selected clips from the NATURE episode “Ravens.” Based on what they learn, students will then work in groups to create a theoretical intelligence-challenging “obstacle course” for ravens.

This lesson could be used following (or in conjunction with) the lesson “Symbiotic Strategies.”

SUBJECT MATTER: Living Environment/Biology

LEARNING OBJECTIVES:

Students will be able to:

• Compare “classical” and “modern” views of bird brain anatomy and function, and compare bird brains to human brains;
• Describe various raven behaviors and abilities that indicate intelligence;
• Explain why many of these behaviors indicate cognitive intelligence rather than simple inherited instinct;
• Assemble a realistic sequence of intelligence-testing challenges for ravens.

STANDARDS AND CURRICULUM ALIGNMENT:

National Science Education Standards

CONTENT STANDARD C: As a result of their activities in grades 9-12, all students should develop understanding of:

THE INTERDEPENDENCE OF ORGANISMS

• Organisms both cooperate and compete in ecosystems. The interrelationships and interdependencies of these organisms may generate ecosystems that are stable for hundreds or thousands of years.
• Living organisms have the capacity to produce populations of infinite size, but environments and resources are finite. This fundamental tension has profound effects on the interactions between organisms.

THE BEHAVIOR OF ORGANISMS

• Organisms have behavioral responses to internal changes and to external stimuli. Responses to external stimuli can result from interactions with the organism’s own species and others, as well as environmental changes; these responses either can be innate or learned. The broad patterns of behavior exhibited by animals have evolved to ensure reproductive success. Animals often live in unpredictable environments, and so their behavior must be flexible enough to deal with uncertainty and change. Plants also respond to stimuli.
• Like other aspects of an organism’s biology, behaviors have evolved through natural selection. Behaviors often have an adaptive logic when viewed in terms of evolutionary principles.
• Behavioral biology has implications for humans, as it provides links to psychology, sociology, and anthropology.

CONTENT STANDARD G: As a result of activities in grades 9-12, all students should develop understanding of

NATURE OF SCIENTIFIC KNOWLEDGE

• Scientific explanations must meet certain criteria. First and foremost, they must be consistent with experimental and observational evidence about nature, and must make accurate predictions, when appropriate, about systems being studied. They should also be logical, respect the rules of evidence, be open to criticism, report methods and procedures, and make knowledge public. Explanations on how the natural world changes based on myths, personal beliefs, religious values, mystical inspiration, superstition, or authority may be personally useful and socially relevant, but they are not scientific.
• Because all scientific ideas depend on experimental and observational confirmation, all scientific knowledge is, in principle, subject to change as new evidence becomes available. The core ideas of science such as the conservation of energy or the laws of motion have been subjected to a wide variety of confirmations and are therefore unlikely to change in the areas in which they have been tested. In areas where data or understanding are incomplete, such as the details of human evolution or questions surrounding global warming, new data may well lead to changes in current ideas or resolve current conflicts. In situations where information is still fragmentary, it is normal for scientific ideas to be incomplete, but this is also where the opportunity for making advances may be greatest.

NEW YORK STATE CORE CURRICULUM ALIGNMENTS

Living Environment Core Curriculum

Standard 1: Students will use mathematical analysis, scientific inquiry, and engineering design, as appropriate, to pose questions, seek answers, and develop solutions.

Key Idea 1: The central purpose of scientific inquiry is to develop explanations of natural phenomena in a continuing and creative process.

Performance Indicator 1.1: Hone ideas through reasoning, library research, and discussion with others, including experts.

1.2a Inquiry involves asking questions and locating, interpreting, and processing information from a variety of sources.

Standard 4: Students will understand and apply scientific concepts, principles, and theories pertaining to the physical setting and living environment and recognize the historical development of ideas in science.

Key Idea 1: Living things are both similar to and different from each other and from nonliving things.

Performance Indicator 1.1 Explain how diversity of populations within ecosystems relates to the stability of ecosystems.

1.1a Populations can be categorized by the function they serve. Food webs identify the relationships among producers, consumers, and decomposers carrying out either autotropic or heterotropic nutrition.

1.1b An ecosystem is shaped by the nonliving environment as well as its interacting species. The world contains a wide diversity of physical conditions, which creates a variety of environments.

1.1c In all environments, organisms compete for vital resources. The linked and changing interactions of populations and the environment compose the total ecosystem.

Key Idea 6: Plants and animals depend on each other and their physical environment.

Performance Indicator 6.1 Explain factors that limit growth of individuals and populations.

6.1g Relationships between organisms may be negative, neutral, or positive. Some organisms may interact with one another in several ways. They may be in a producer/consumer, predator/prey, or parasite/host relationship; or one organism may cause disease in, scavenge, or decompose another.

MEDIA COMPONENTS:

Video

NATURE: Ravens, selected segments:

Clip 1: “Raven Adaptability”

Ravens are the most intelligent birds in the crow family.

Clip 2: “Feeding Time”

Ravens’ smarts can be observed in many situations.

Clip 3: “The Roost”

Why do ravens gather together?

Clip 4: “Testing Intelligence”

Scientific experiments test how ravens think.

Access the streaming and downloadable video segments for this lesson at the Video Segments Page.

Web Sites

Bird Brain
A site from PBS’s NOVA exploring the most current understanding of bird brain physiology, revealing a less instinctive and more cognitive brain structure than has traditionally been thought.

Measuring Intelligence
A site from the Smithsonian National Zoological Park addressing some of the basic difficulties in determining bird intelligence.

The Animal Mind
A NATURE site from PBS describing the intelligent behavior of four different species.

Symbiosis
A site from North Carolina State University featuring descriptions of the different types of symbiotic relationships among animals.

Nutcrackers
A PBS site exploring intelligent behavior in various bird species.

MATERIALS

For each student:

• “Raven Reason” Student Organizer. (PDF) (RTF)
• Computer with Internet access

For the class:

• “Raven Reason” Student Organizer Answer Key (PDF) (RTF)
• Computer with Internet access and projection system for showing video clips
• Blackboard or whiteboard

PREP FOR TEACHERS:

Prior to teaching this lesson, you will need to:

Preview all of the video clips and Web sites used in the lesson.

Download the video clips used in the lesson to your classroom computer, or prepare to watch them using your classroom’s Internet connection.

Bookmark the Web sites used in the lesson on each computer in your classroom. Using a social bookmarking tools such as del.icio.us or diigo (or an online bookmarking utility such as portaportal) will allow you to organize all the links in a central location.

Gather the necessary materials listed above in advance of teaching the lesson. Download and print the “Raven Reason” student organizer and make copies for each student in your classroom.

Note that the computer requirements in the “Materials” section reflect an ideal arrangement. You may find it necessary to divide the class into a number of groups equal to the computers available, adjusting the lesson instructions accordingly.

Next: Proceed to Activities

Background:
The traditional view of birds was that they simply acted by a set of inherited instincts, but new scientific research is revealing a larger role for complex cognitive processes in their behavior, including communication, counting, memory, and basic problem solving. These excerpts from the NATURE episode “Ravens” demonstrate several of these commonly accepted indicators of animal intelligence as demonstrated by the most brainy of all birds-the raven.

Suggested Focus Questions:

Clip 1: Raven Adaptability

1. What makes ravens so adaptable?
2. Ravens eat meat but they don’t kill it themselves. What kind of animal does this make them?
3. How might ravens’ relationship with coyotes indicate their intelligence?

Clip 2: Feeding Time

1. What skill does the raven demonstrate at the dumpster?
2. When and why might a raven puff out its feathers?
3. How might ravens’ caching behavior indicate intelligence?

Clip 3: The Roost

1. What’s one theory about why young ravens roost together?
2. How might one raven be able to tell if another knows where food is?
3. Why would a young raven, having found food, call over other ravens to help eat it?

Clip 4: Testing Intelligence

1. Why is it so difficult to measure intelligence in animals?
2. Why is it important that the ravens have never been exposed to the experiment before?

Downloadable QuickTime versions of the video segments:
(Note: To download a video, right=click on the video title and click “Save Link As…’ or “Save Target As…”. On a Mac, press the CTRL key and simultaneously click the mouse, then save the link.)

Clip 1: “Raven Adaptability“

Clip 2: “Feeding Time“

Clip 3: “The Roost“

Clip 4: “Testing Intelligence“